There was a guy developing a headset covered in LEDs that a static webcam could spot and from that infer position in 3d and rotatation along a further 3 axes. Pretty sure it was linked in this thread, but I can't find it.

AMOLED minus the TFT active matrix just leaves you with passively addressed OLED. It's like old dual scan LCDs versus TFT LCDs back in the day - I can't see how externally addressed OLEDs would be any better.

AMOLED minus the TFT active matrix just leaves you with passively addressed OLED. It's like old dual scan LCDs versus TFT LCDs back in the day - I can't see how externally addressed OLEDs would be any better.

Or perhaps you're missing a smiley?

Just lazy, mainly because if I'd said 'AMOLED displays using Pen-tile matrix FTL' it'd have been another 3 posts. Can't stand them even at a distance, imagine them blown up all in ya face!

I'd thought, given how widespread the issues I've seen were, that this was inherent to OLED but it seems it's just a shitty Samsung calibration issue - the other screen in the video is also an OLED, also Samsung

So forget what I said earlier. Maybe, if OLED can work at the required low latency, it'll be just fine

It's not necessarily a calibration issue and it isn't limited to OLED displays. Any display unable to resolve shadow detail (greyscales) can be described as exhibiting 'Black Crush'. Not all OLED panels will be created equally, I would imagine some will be better at resolving than others, taking into account any controller / video processing in the signal path.

silentbob wrote:
It's not necessarily a calibration issue and it isn't limited to OLED displays. Any display unable to resolve shadow detail (greyscales) can be described as exhibiting 'Black Crush'. Not all OLED panels will be created equally, I would imagine some will be better at resolving than others, taking into account any controller / video processing in the signal path.

I don't even think this falls into the classic "crush" definition, the screen can display the tones, it's just been calibrated to resolve anything above "0" as, say, "15", rather than ramping gradually up